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Industrial Thermography

Industrial Thermography

Non-contact Accurate Thermography Helps Safe Production

Industrial Thermography Application

In the field of industrial manufacturing, temperature detection is directly related to production safety and product quality. With its unique technical advantages, infrared thermal imaging cameras have become an indispensable detection tool for modern industrial manufacturing. From raw material processing to finished product delivery, from equipment operation to process optimization, infrared thermal imaging technology can present in all aspects of production and manufacturing, achieving safe production and modern industrial production with cost reduction and efficiency improvement.

Visual

Passive, non-contact, and remote visual thermography without interrupting the production process

Efficient

Full-frame thermography, with quick large-area inspection and shortened detection

High-Temperature

Accurately detecting industrial high-temperature targets up to 2,500°C and meeting the needs of harsh working conditions

Diagnostic

Easily locating abnormal high/low temperature points and identifying potential faults through thermal images

GIM helps industries reduce costs and increase efficiency

Detect the temperature of production equipment and prevent mechanical failures
Assist in quality inspection and improve product qualification rate
Accurately obtain thermal data and optimize R&D efficiency
Early detect thermal hazards for safe and efficient production

Preventive Maintenance of Mechanical and Power Equipment

Abnormal temperature is often the first warning sign of equipment failure. Through non-contact precise thermography, infrared thermal imaging cameras can intuitively capture abnormal thermal distribution on the surface of equipment, making hidden dangers such as bearing wear and poor lubrication nowhere to hide. This simple and efficient detection method helps engineers predict the status of equipment, intervene in time during the budding stage of faults, and avoid production interruptions and major losses caused by sudden equipment failures.
- Operating Temperature Detection of Automobile Engine
- Temperature Detection of Power Machinery
- Operating Temperature Detection of Hot-rolled Hob Bearing
Quality Control in Production

During the manufacturing process, process temperature affects the quality of products. Infrared thermal imaging cameras can be used to detect the temperature distribution of key links in the production line in real time, making quality defects such as loose welding and uneven heat treatment clear at a glance. The detection does not affect the production rhythm, but reduce the defective rate of products, greatly improve production efficiency, and keep the quality lifeline for enterprises.
- Temperature Detection of Busbar Joints in Metallurgical Pickling Production Lines
- Inspection on Packaging Hot Melt Adhesive Packaging
- Hidden Danger Investigation of Heat Exchanger
Detection and Application in R&D Process

In the design and development of new products, infrared thermal imaging cameras be used to intuitively and clearly present the temperature change law of key components. For example, heat dissipation defects can be accurately exposed and the dynamic thermal change process of the product during operation can be fully recorded, providing a reliable basis for optimizing heat dissipation design. Infrared thermal imaging cameras can be used to identify and correct thermal management problems during the R&D period, effectively avoiding later design rework, shortening the above R&D cycle, and significantly improving product reliability and market competitiveness.
- Test of Tire Wear due to Heat
- Lamp Aging Test
- PCBA Test
Maintenance and Application of Electrical Equipment

In electrical system maintenance, infrared thermal imaging cameras can be used to quickly scan and detect live equipment such as distribution cabinets, transformers, switch contacts, etc., and accurately find abnormal heating points caused by poor contact, insulation aging or overload. This efficient detection method can detect hidden dangers in time at the early stage of equipment failure, greatly improving the accuracy and efficiency of electrical system maintenance and avoiding unexpected power outages or fire accidents caused by electrical failures.
- Daily Temperature Detection of Power Distribution Cabinet
- Temperature Detection of Power Controller
- Temperature Detection in Power Switch Cabinet

Application in More Scenarios

Petroleum and Petrochemical Industry—Tank Liquid Level Detection

Through the temperature gradient change of the tank wall, the liquid level height can be accurately judged non-contactly. It is particularly suitable for the detection of flammable and explosive media to achieve safe and efficient tank status monitoring.

Intelligent Manufacturing—Temperature Detection in Die Casting Process

It is capable of detecting die surface temperature distribution in real time, optimizing cooling system parameters, ensuring stable casting quality, and extending die life.

Iron and Steel Metallurgy—Blast Furnace Hot Tube Temperature Detection

It is capable of detecting blast furnace hot air temperature field remotely, timely adjusting combustion conditions, preventing refractory damage, and improving smelting efficiency.

New Energy—Battery Pack Charging and Discharging Temperature Detection

It is capable of dynamically capturing abnormal cell temperature, warning thermal runaway risks, ensuring battery system safety, and improving cycle life.